n due at the end of march. i am hoping to see if i can do this as a sort of "HIVE MIND" experiment with one or two or more posters to the forum. i have uploaded two files to http://www.formpig.com/nine_bar-FAR and I have the following goals:
1. To "kinematically iterate" various formal building envelopes based upon a 50' x 100' lot that "conform" to the nine bar linkage geometry.
2. This lot would have "setbacks" consisting of two 5' side setbacks, a 10' rear yard setback and a 25' front yard setback. max height on the structure is 32' and the allowable overhangs into the setbacks are 2'. I would like to find a way to use the "nine bar geometry" to construct a series of iterations for "floors", "walls" and "ceilings", which would then be tied to a volumetric (cubic volume), or a total square footage (perhaps based upon two horizontal section cuts) which was based upon a given number that I will provide per local building code.
3. Laid on top of this we would also have "mcmansion ordinance" requirements based upon the pdf enclosed. i expect to have this "tent restriction" data in digital form to upload to ftp shortly.
It would be up to you individually or collectively to determine how best to position this "in the real world" based upon the lot, setbacks, zoning requirements etc. For instance, perhaps the nine bar configuration has its vertices coplanar with the 50' x 100' x 32' envelope restrictions and then the chosen volume is "trimmed' by the setback requirements. Or perhaps the nine-bar configuration is generated completely within the setbacks, or perhaps it is generated 2' outside of the setbacks so as to take advantage of the 2' overhang allowance on the setbacks, etc.
*
Given an opportunity to develop the work in a second phase we would have an opportunity to tie this into various efficiencies such as Bill of Materials (wall floor and ceiling square foot calculations), envelope to volume calculations, solar panel efficiencies (solar orientation and envelope geometry) etc, etc (love to get suggestions for this).
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I've become /really/ convinced that this would be a /really/ interesting entry based upon my just finishing up Kas Oosterhuis' Towards a New Kind of Building: A Designer's Guide for Non-Standard Architecture". In an ideal world I was hoping that it would be possible to hash this out discussion-wise and then literally passing it around on the list after someone eventually made the first move by tossing out a rough ghx script. My expectation would be to finalize it rapidly in the next two weeks. Something of a contemporary version of a design charette.
However, I realize this may not be workable so if you have experience in this arena and particularly if you think this is a brief that is straighforward enough to be almost literally implemented in Grasshopper, please contact me for any wage and/or contract fee requirements.
I'm getting a bit of a late jump on this but my hope is that with the right participant(s) that I can thrash it together quick enough for the first round.
info@formpig.com…
case for sure (started by Giorgio a couple of days before). Ive got involved because I exploit ways to "relax" shapes on nurbs (say patterns created by Lunchbox or "manually) without using any kind of mesh (more explanations soon).
Here's 5 test cases (SDK appears that doesn't have some "thicken surface" thing ... thus the algo that finds the "whole" shapes is rather naive) VS 2 Kangaroo "methods" and the why bother (he he) option as well.
If the goal is to "fit" these shapes within the nurbs ... does it work so far? No I'm afraid (appears that "springs" used are not the proper ones - or [Kangaroo1 option] the lines that pull should been originated from valance 2 points only)
Tricky points:
1. Internalize appears having a variety of serious issues (see Input inside definition) - Load Rhino file first (but even so ...).
2. Pull to surface is deactivated - this is not the issue here (and it's very slow).
3. Since Starling/WB alter the "curves - points" related order
the issue here (Pull points to curves) is to correspond apples to apples:
and that's what Anemone does:
From chaos :
to order:
this means that prior activating Kangaroo you should double click to the Anemone start component in order to "sort" properly the curves.
But .. fact is that results are pathetic:
more soon
best, Peter…
essarily architectural. As you can guess from the tone of my previous response, I finished with school and had a hard time finding a job that focused on the technologies I delt with all through undergrad and grad. During grad school I was working with ASGvis (the makers of V-Ray) so I got exposed to the software side of things both on the support/management side and the development side. Now I'm off on my own doing development projects like RhinoHair, a few others, and some custom plugins for clients. Not necessarily what I thought I'd be doing after grad school, but I'm certainly enjoying it more than the "standard" practice of architecture.
I definitely understand "creating" a program. I did both my undergrad and grad at Catholic U here in DC, and although there was some ground work laid in regards to fabrication, I was one of only two or three students spearheading a lot of the scripting/GH/parametric stuff and some of the topics that go along with them (algorithmic design, adaptive systems, advanced geometry). One thing that was incredibly helpful for me was to pair up with the most advanced and forward thinking professor(s) that you can and take their studios, electives, and/or help out with their research. I was lucky enough to pair with a professor who had been at MIT and really encouraged me to explore my interests and sharpen my technicial skills.
It might also be a good idea to stick your head in some other departments, probably the math and engineering ones, or even biology and economics if there are some forward thinking professors. Talk to some people and get a different perspective on things. When I went to the ACADIA conference in 2008 it really opened my eyes to some of the potential influence from those different arenas.
Fabrication wise, I'd really try to focus more on milling (3 axis is fairly standard, 5 axis if you can get access) than 3d printing. Printing is a lot of fun, but ultimately we're not printing buildings (yet), so some of the milling processes will be much more valuble. If your school doesn't have those kind of facilities on campus (either in the Arch dept or engineering or something), then contact a local fabricator and see if you can work together somehow or someway. You'd be surprised and how many fabricators are interested in talking to architects.…
Added by Damien Alomar at 3:13pm on February 8, 2010
ncluded 3) using a freaky thing that "makes" Planes in order to do ramps (spot the Vodka option = Mobius + antigraviity OFF).
Don't touch the freaky things: for the moment just go and play with this palatable portion (GH components, nothing to fear he he):
depending on choice in gates: Paranoid (Mobius "shifted in Z")
sane (using corrected Planes):
not so sane:
What we have learned so far? Well ramps (and most of other things) ... it's about Planes (coordinate systems) you know.
Again: this is for fun/demo ONLY. I'll prepare a dedicated def for your case soon.
have fun, be brave
…
is Radius = (size+40)/(2*Pi), where "size" is the value to give, it's usually used in countries like Spain, Italy, Netherlands, Switzerland... The next release will have 6 ways (5 regional system + diameter) to give it the size in different regional systems with just two clicks, in fact, the rings of the next release are already developed, but will have to wait...
Knowing that:
ISO (International Organization for Standardization). mm of internal circunference. Austria, France, Germany, Belgium, Scandinavia...
radii = Size / (2 * Math.PI)
European Size. Spain, Italy, Netherlands, Switzerland...radii = (Size + 40) / (2 * Math.PI)
British Size. United Kingdom, Ireland, Australia, New Zealand, South Africa...radii = ((Size * 0.4) + 11.5) / 2
American Size. United States, Canada, Mexico...radii = ((Size * 0.83) + 11.54) / 2
Japanese Size. Japan, China, India, South America...radii = ((Size / 3) + 12.67) / 2
Diameter Size. Many goldsmiths anywhere.
radii = Size / 2
Source: http://www.18carat.co.uk/ringsizes.html
and since this release are UserObject componentes, you can remplace if you want the Size component with one new. For example, right clicking size_param, going to Expresion and setting x*pi-40, the size input will be the diameter of the resulting circle, if you give it a value of 14, the circle will have a radius of 7. Then save the userobject (File>Create User Object) and remove the other.
Or create a new one, since this component is just a rotated circle and a cylinder.
Hope this helps.…
ne – power of the many è un corso advanced level che studia la produzione di effetti complessi a partire dalla modellazione di comportamenti semplici su un insieme strutturato con un numero alto di elementi. Attraverso un approccio generico e scaleless sarà possibile affrontare la tematica generale su più fronti e in una molteplicità di declinazioni possibili. Il corso è rivolto a chi,indipendentemente dal proprio background (urbanistica, architettura, ingegneria, design, arte o altro) già possiede una esperienza di base con Rhinoceros e Grasshopper, e desidera sviluppare aspetti di gestione avanzata del flusso di articolato di informazioni attraverso una strategia guidata basata su esempi pratici e sull’implementazione di un progetto personale sul tema generale del “field behaviour”. Sarà trattato anche l’utilizzo di alcuni plug-ins quali gHowl e WeaverBird. Il numero dei partecipanti è fissato a un massimo di 20 per offrire un tutoraggio proficuo ed una effettiva esperienza di learning ad ogni iscritto.
[.] Temi:
teoria
. complessità, emergence, effetti di campo (field behaviour), sensibilità, efficienza multiperformance
tecnica
. dati:gestione e manipolazione avanzata del data tree, streaming e visualizzazione; transizione, blending e modulazione delle geometrie; generazione e controllo multiperformance di popolazioni di componenti; attrattori, drivers e tecniche di modulazione avanzate; uso delle mesh con WeaverBird; ottimizzazione con Galapagos
[.] Dettagli :
Tutors: Alessio Erioli + Andrea Graziano – Co-de-iT
Si richiede esperienza di base nella modellazione in Rhino (equivalente a Rhino training Level 1, il Level 2 è gradito – la documentazione per il training è disponibile gratuitamente all’indirizzo: http://download.rhino3d.com/download.asp?id=Rhino4Training&language=it) e nell’uso di Grasshopper (la suddivisione di una superficie NURBS in componenti tramite isotrim è data come base assodata)
. luogo:
IreCoop – via Vasco De Gama 27 _ Firenze
. durata:
25-27 febbraio 2010 – 3 giornate consecutive _ orario 9:00 – 18:00
. costo:
professionisti – 450.00 € studenti – 280.00 €
. note:
scadenza iscrizioni: 20 febbraio 2010 il corso sarà attivato con un numero minimo di 15 iscritti al termine sarà rilasciato un attestato di frequenza gli iscritti dovrano venire muniti dei propri laptop con software installato. una versione free per 30 giorni è disponibile sul sito www.rhino3d.com
. contatti:
iscrizioni + info alloggi: www.irecooptoscana.it (Cosa offriamo > formazione > altri corsi)
info sul corso: info@co-de-it.com…
, Engineer and Researcher from France with broad programming experience. He is the author of the City in 3D Rhinoceros plugin for creation of buildings according to geojson file and with real elevation. Guillaume already created a new component: "Address to Location". It enables getting latitude and longitude values for the given address:
2) Support of Bathymetry data: automatic creation of underwater (sea/river/lake floor) terrain. This feature is now available through new source_ input of the "Terrain generator" component. Here is an example of terrain of the Loihi underwater volcano, of the coast of Hawaii:
3) A new terrain source has been added: ALOS World 3D 30m. ALOS is a Japanese global terrain data. Gismo "Terrain Generator" component has been using SRTM 30m terrain data, which hasn't been global and was limited to -56 to +60 latitude range. With this addition, it is possible to switch between SRTM and ALOS World 3D 30m models with the use of source_ input.
4) 9 new components have been added:
"Address To Location" - finds latitude and longitude coordinates for the given address.
"XY To Location" - finds latitude and longitude coordinates for the given Rhino XY coordinates. "Location To XY" - vice versa from the previous component: finds Rhino XY coordinates for the given latitude longitude coordinates. "Z To Elevation" - finds elevation for particular Rhino point. "Rhino text to number" - convert numeric text from Rhino to grasshopper number. "Rhino unit to meters" - convert Rhino units to meters. "Deconstruct location" - deconstructs .epw location. "New Component Example" - this component explains how to make a new Gismo component, in case you are interested to make one. We welcome new developers, even if you contribute a single component to Gismo! "Support Gismo" - gives some suggestions on how to make Gismo better, how to improve it and support it.
5) Ladybug "Terrain Generator" component now supports all units, not only Meters. So any Gismo example file which uses this component, can now use Rhino units other than Meters as well. Thank you Antonello Di Nunzio for making this happen!!
Basically just forget about this yellow panel:
This panel is not valid anymore, so just use any unit you want.
6) A number of bugs have been fixed, reported in topics for the last couple of weeks. We would like to thank members in the community who invested their time in testing, finding these bugs and reporting them: Rafat Ahmed, Peter Zatko, Mathieu Venot, Abraham Yezioro, Rafael Alonso. Thank you guys!!! Apologies if we forgot to mention someone.
The version 0.0.2 can be downloaded from here:
https://github.com/stgeorges/gismo/zipball/master
And example files from here:
https://github.com/stgeorges/gismo/tree/master/examples
Any new suggestions, testing and bug reports are welcome!!…
Added by djordje to Gismo at 5:13pm on March 1, 2017
hit Commit.
I'm wondering how hard it would be to have an edit box which shows the
number the user could click inside of then type in a new number, then
hit enter. :)
2) How would I go about using one line from a table and assign each
field to a variable? Then, move a slider or something and use the values
from the next row?
background: I'm recreating elbows, Tees, and other fittings using
paramatric scripts, then baking and exporting them. Here's one source
table, http://www.wardfittings.com/Assets/PDFs/0902CatalogColorOld.pdf
page 5, the uniform elbows.
Current Setup: the attached ghx file. Create a point at 0,5,0 in a blank
document with units set to inches, then assign that point to the top
left 'Center Pnt' in the ghx file.
Current workflow:
a) Modify variables A, B, H, and Nominal Dia to match one line from the
table in the linked PDF file, page 5, table of regular elbows.
b) Select the 'Nodes' and 'Surfaces' with a drag box
c) Click 'Bake'
d) Switch to Rhino window, do the 'sellast' command.
e) Drag baked objects along Y axis so the center point is at 0,0,0
f) Run 'Join'
g) Run 'Cap'
h) set the 'node' points to a layer called 'nodes'
i) set the surface to a layer called 'fit-3d'.
j) select the surfaces and nodes
k) export selected
This elbow that I'm doing only has 12 rows, so doing it the above method
doesn't take THAT long. I'm also going to be doing a couple with larger
tables like the Tee on page 8, and in other spec files. As you can
imagine, entering in EACH value into a slider is a bit tedious.
I'd love to take the pdf table, run it through an OCR program to convert
to excel, modify the headers so the ghx script knows what they are, then
paste it into grasshopper, or save it and have grasshopper read it, and
I be able to move a slider or something to to select one line at a time.
Has anyone done something similar? ie: assigned one row in a table to a
predefined set of variables, each variable coming from one field in the row?
Thanks for taking the time to read this message. :)
I'm making a rhino script to do steps d-k, so that part will be much faster.
-Suthern…
the other pluggins again, I doubt that problems arise and if I already have them Which are due to the autodesk pluggins that I can install on another computer or mount a virtual machine, but I doubt it, I simply had to install Grasshopper first and then the rest.)
Problem:
Good day, afternoon or night, please help I can not install the Grasshopper plugin 0.9.76.0 in Rhinoceros 5SR13, I do not know if it is because I uninstalled the version of 32 Bit of Rhinoceros and I only have installed the 64 Bit version, I have installed on Rhinoceros 64 Bit:
Autodesk Realtime Renderer 2014 x64 Autodesk Shape Modeling 2014 x64 Autodesk T-Splines 2015 x64 V-Ray 2.00.23938 for Rhinoceros 5 x64 V-Ray Express 2 for Rhinoceros 5
I would infinitely appreciate the resolution to this problem, for the moment I can not think of anything other than to uninstall everything and leave only installed the program Rhinoceros 5SR13 with Grasshopper 0.9.76.0 and nothing more.
I already tried to download another new file from Grasshopper 0.9.76.0, which ruled out that this installer is wrong, what I could do is look for another version of Rhinoceros but I have the newest one or one of the newest versions: Rhino_5.13.60913.21340_x86_x64_Multi. Exe
I understand that the Grasshoper installer is showing me a message where it says there is a Win32 exception where the system can not find the source file, what I do not know is if this exception has to do with the Windows C /: Folder: Windows, subfolder: System32 or I do not know if it refers to that as I do not have the 32 bit version of Rhinoceros maybe the installer gets confused and generates the installation error exception.
Another thing to which the exception is associated is the start process file: Start.nfo or start information.
There is also a programming argument for file upload errors of boolean operations (geometry operators) associated with the platform operating system, a process called child process.
Also appears another note that says the installed package of a plugin called inspector and I do not know what else I can not explain.
I do not know what to do, I just happen to uninstall and install everything and I do not think the Rhinoceros installer has any errors, I have Windows 10 edition of Red Stone 1 of 64 Bit.
Thanks and if anyone had this problem and solved it please tell me how to fix it or if someone knows about programming you can tell me why all those errors or exceptions are.
Greetings, have a nice day, afternoon or night wherever you step or stand or wherever you are sitting or lying down.…
option, after downloading check if .ghuser files are blocked (right click -> "Properties" and select "Unblock"). Then paste them in File->Special Folders->User Object Folder. You can download the example files from here. They act in similar way, Ladybug Photovoltaics components do: we pick a surface, and get an answer to a question: "How much thermal energy, for a certain number of persons can my roof, building facade... generate if I would populate them with Solar Water Heating collectors"? This information can then be used to cover domestic hot water, space heating or space cooling loads:
Components enable setting specific details of the system, or using simplified ones. They cover analysis of domestic hot water load, final performance of the SWH system, its embodied energy, energy value, consumption, emissions... And finding optimal system and storage size. By Dr. Chengchu Yan and Djordje Spasic, with invaluable support of Dr. Willian Beckman, Dr. Jason M. Keith, Jeff Maguire, Nicolas DiOrio, Niraj Palsule, Sargon George Ishaya and Craig Christensen. Hope you will enjoy using the components! References: 1) Calculation of delivered energy: Solar Engineering of Thermal Processes, John Wiley and Sons, J. Duffie, W. Beckman, 4th ed., 2013. Technical Manual for the SAM Solar Water Heating Model, NREL, N. DiOrio, C. Christensen, J. Burch, A. Dobos, 2014. A simplified method for optimal design of solar water heating systems based on life-cycle energy analysis, Renewable Energy journal, Yan, Wang, Ma, Shi, Vol 74, Feb 2015
2) Domestic hot water load: Modeling patterns of hot water use in households, Ernest Orlando Lawrence Berkeley National Laboratory; Lutz, Liu, McMahon, Dunham, Shown, McGrue; Nov 1996. ASHRAE 2003 Applications Handbook (SI), Chapter 49, Service water heating
3) Mains water temperature Residential alternative calculation method reference manual, California energy commission, June 2013. Development of an Energy Savings Benchmark for All Residential End-Uses, NREL, August 2004. Solar water heating project analysis chapter, Minister of Natural Resources Canada, 2004.
4) Pipe diameters and pump power: Planning & Installing Solar Thermal Systems, Earthscan, 2nd edition
5) Sun postion and POA irradiance, the same as for Ladybug Photovoltaics (Michalsky (1988), diffuse irradiance by Perez (1990), ground reflected irradiance by Liu, Jordan (1963))
6) Optimal system and storage tank size: A simplified method for optimal design of solar water heating systems based on life-cycle energy analysis, Renewable Energy journal, Yan, Wang, Ma, Shi, Vol 74, Feb 2015.…